CN101300763A - Method and apparatus for determining a level of involvement of mesh points in a wireless communication system - Google Patents

Abstract

A method and a device of determining entanglement degree of a mesh point (MP) of a wireless communication system are adapted to the wireless communication system having a plurality of mesh points, comprising: a first mesh point transmits a network status request signal to a second mesh point. A second mesh point responds to network status information to the first mesh point. The first mesh point decides the entanglement degree of the wireless communication system receiving the network status information from the second mesh point and based on the network status information.

Description

The decision site involves hierarchical method and device in the wireless communication system

Technical field

The present invention relates to wireless telecommunication system.Particularly, the mesh point (MP) that the present invention relates to a kind of wireless telecommunication system involves degree determining method and device thereof.

Background technology

Along with the lasting evolution of wireless technology, WLAN (WLAN) also is subjected to generally utilizing, yet also may there be various changes in wireless network.For instance, traditional WLAN (WLAN) may be based on architectural system (structured system), and architectural system (structured system) has and wireless device carries out the base station (BS) of communication and the routing traffic between each base station (BS).The wireless network of another kind of type is random network (ad-hoc network), wherein, point-to-point (point-to-point) technology that wireless device utilizes and carry out communication with single or multiple additional wireless devices, wherein, wireless device dynamically connects, or break away from random network (ad-hoc network).

Combination as traditional WLAN (WLAN) and random network (ad-hoc network), mesh network (mesh network) can comprise: user's device, terminating machine, access point (AP) and base station (BS), and user's device, terminating machine, access point (AP) and base station (BS) all have the function of mesh point (MP).Based on the low work such as WLAN (WLAN) cover extend, feature that low work and low complex degree oneself dispose WLAN (WLAN), and based on its high fault tolerant and redundant ability, mesh network (mesh network) has obtained the support gradually of technical standard corporations.

Mesh network (mesh network) is characterised in that: the mesh point (MP) of mesh network (mesh network) can be implemented various types of network functions, and, various types of network functions traditionally, is just won and is utilized certain particular type wireless device of WLAN (WLAN) to be implemented.In view of this, the improper mesh point (MP) that is used for specific function can seem because requiring suddenly to implement these additional network features most probably and feels inadequate.For instance, the improper wireless device that passes on that is used to implement route or a certain wireless device to another wireless device, when implementing route or a certain mesh point (MP) to the passing on of another mesh point (MP), the power consumption that exceeds the quata (power drain) of its supply of electric power or battery be may experience, and then the function and the probable life of this wireless device limited.

In view of this, the invention provides a kind of method, and, this method is considered mesh point (MP) user and mesh network (mesh network) operator's viewpoint simultaneously in light of actual conditions, use the mesh point (MP) that control participates in mesh network (meshnetwork), and then make the mesh point (MP) that participates in mesh network (mesh network) not be subjected to the restriction of conventional method.

Summary of the invention

A kind of mesh point of wireless telecommunication system (MP) involves degree determining method and device thereof, is applicable to the wireless telecommunication system with a plurality of mesh point (MP), and it comprises: first mesh point (MP) transmission state requires signal to the second mesh point (MP).Second mesh point (MP) response to network state information to the first mesh point (MP).First mesh point (MP) via second mesh point (MP) receive network state information, and state information Network Based with the degree that involves of decision wireless telecommunication system.

Description of drawings

The reading of the following detailed description of existing summary of the invention and preferred embodiment of the present invention can be considered accompanying drawing in light of actual conditions and be obtained further understanding, wherein:

Fig. 1 represents the schematic diagram according to a kind of wireless telecommunication system of the present invention;

Fig. 2 represents the calcspar according to a pair of mesh point of the present invention (MP), and this involves the degree determining method to mesh point (MP) in order to the mesh point (MP) of implementing wireless telecommunication system shown in Figure 1;

Fig. 3 represents the signal graph according to a pair of mesh point of the present invention (MP), and, this to mesh point (MP) each other communication involve degree with the mesh point (MP) that determines wireless telecommunication system shown in Figure 1;

Fig. 4 represents that the mesh point (MP) according to a kind of wireless telecommunication system of the present invention involves the flow chart of degree determining method;

Fig. 5 A represents according to a kind of wireless telecommunication system of the present invention, and the height that the mesh point of this wireless telecommunication system (MP) has wireless telecommunication system involves degree; And

Fig. 5 B represents according to a kind of wireless telecommunication system of the present invention, and the minuent that the mesh point of this wireless telecommunication system (MP) has wireless telecommunication system involves degree.

Embodiment

In specification of the present invention, term " mesh point (MP) " including, but not limited to wireless transmission/receive unit (WTRU), user's equipment (UE), mobile workstation, fixing or moving user unit, beeper, maybe can operate in any other types of devices of wireless environment.In addition, mesh point (MP) is including, but not limited to any other type interface device of base station (BS), B node, positioner, access point (AP) or wireless environment.

Various feature of the present invention can be integrated into single IC for both (IC), and perhaps, various features of the present invention can framework be the circuit with a plurality of interconnecting assemblies.

Fig. 1 represents according to a kind of wireless telecommunication system 100 of the present invention.This wireless telecommunication system 100 comprises a plurality of mesh point (MP) 110, and, each mesh point (MP) communication each other.In addition, single or multiple mesh point (MP) 110 can connect external network 150, such as: the external network of internet, public switched telephone network (PSTN) or any other type.Utilize this method, any mesh point (MP) 110 of this wireless telecommunication system 100 can be via the mesh point (MP) that connects external network 150 access external network 150.For purposes of illustration, in Fig. 1, only there is single mesh point (MP) 110 can connect external network 150.Yet the mesh point of any number (MP) 110 can also connect external network 150.

Purpose of the present invention for convenience of description, phrase " involve degree " expression mesh point (MP) is with respect to the degree that involves of its operate wireless communication system.Will be discussed in detail as follows just as the present invention's explanation, the preferably involves degree based on the operate wireless communication system of mesh point (MP) or the correlation behavior information at wireless telecommunications networking, and particularly, netted state information.

Fig. 2 represents the calcspar according to two mesh point of the present invention (MP) (these two mesh point (MP) are denoted as mesh point (MP) 110 ' and mesh point (MP) 110 respectively "); and these two mesh point (MP) are in order to sharing information and determine the mesh point (MP) of this wireless telecommunication system 100 to involve degree.For purposes of illustration, basically, mesh point (MP) 110 ' and mesh point (MP) 110 " be similar units.

Except that the standard package that typical mp (MP) has, mesh point (MP) 110 ' comprising: processor 115, in order to determine the degree that involves of this wireless telecommunication system 100; Receiver 116 is in order to carry out communication with processor 115; Transmitter 117 is in order to carry out communication with processor 115; Internal memory 119 carries out communication in order to processor 115; Graphical user interface (GUI) 114 is in order to carry out communication with processor 115; And antenna 118, in order to carry out communication with receiver 116 and transmitter 117 simultaneously, enter and leave the reception and the transmission of mesh point (MP) 110 ' in order to assist wireless data.

Except that the standard package that typical mp (MP) has, mesh point (MP) 110 " comprising: processor 125, in order to determine the degree that involves of this wireless telecommunication system 100; Receiver 126 is in order to carry out communication with processor 125; Transmitter 127 is in order to carry out communication with processor 125; Internal memory 129 carries out communication in order to processor 125; Graphical user interface (GUI) 124 is in order to carry out communication with processor 125; And antenna 128, in order to simultaneously to carry out communication, enter and leave mesh point (MP) 110 in order to assist wireless data with receiver 126 and transmitter 127 " reception and transmission.

Fig. 3 represents according to mesh point of the present invention (MP) 100 ' and mesh point (MP) 100 " between signal graph 300, involve degree in order to the mesh point (MP) that determines this wireless telecommunication system 100.In a kind of preferred embodiment of the present invention, the processor 115 of mesh point (MP) 100 ' is via transmitter 117 and antenna 118, in order to the requirement (310) of request for network status information to mesh point (MP) 100 ".Mesh point (MP) 100 " receiver 126 receive via antenna 128 mesh point (MP) 100 ' network state information requirement (310) and the requirement (310) of the network state information of mesh point (MP) 100 ' transferred to processor 125.

Subsequently, mesh point (MP) 100 " processor 125 via transmitter 127 and antenna 128, have the response (320) of network state information to mesh point (MP) 100 ' in order to transmission.For purposes of illustration, network state information can comprise second mesh point (MP) 100 " relevant information, such as second mesh point (MP) 100 " availability of carrying out communication, mesh point (MP) 110 states that connect this wireless telecommunication system 100 at present, the availability that connects external network via any mesh point (MP) 110, available mesh point (MP) 110 numbers that connect this wireless telecommunication system 100, present wireless telecommunication system active level, connect this wireless telecommunication system 100 needed checkings, average and the maximum delay that this wireless telecommunication system 100 is experienced, the frequency range availability, and the present degree of secrecy and the available encryption of this wireless telecommunication system 100.

The receiver 116 of mesh point (MP) 110 ' via antenna 118 receive response (320) with network state information, and the response (320) that will have a network state information transfer to processor 115.The processor 115 of mesh point (MP) 110 ' can be via graphical user interface (GUI) 114, in order to the user's display network state information to mesh point (MP) 110 '.In addition, what the processor 115 of mesh point (MP) 110 ' can determine and set this wireless telecommunication system 100 involves degree or availability, such as: mesh point (MP) 110 numbers that first mesh point (MP) 110 ' connects, quality of connection (such as: the package loss late), wireless telecommunication system active level, and the present service availability degree of other mesh point (MP) 110 of this wireless telecommunication system 100 at present.For instance, mesh point (MP) 110 ' may non-ly can be used for other mesh point (MP) 110, only can be used for contingency condition, be in (part-time) enabled mode of holding more than one job currently to save electric power or to can be used for other mesh point (MP) 110 of this wireless telecommunication system 100 fully.

Subsequently, the processor 115 of mesh point (MP) 110 ' can be via transmitter 117 and antenna 118, in order to the correlation behavior information of transmitting self to mesh point (MP) 110 ".Mesh point (MP) 110 " receiver 126 receive the correlation behavior information of mesh point (MP) 110 ' via antenna 128 and with the correlation behavior message transport of mesh point (MP) 110 ' to processor 125.Processor 125 can be via graphical user interface (GUI) 124, in order to mesh point (MP) 110 " the user show the correlation behavior information of mesh point (MP) 110 ' and determine and set this wireless telecommunication system 100 involve degree or availability.

In a kind of preferred embodiment of the present invention, network state information and mesh point (MP) 110 " the correlation behavior information storage in mesh point (MP) 110 " internal memory 129 and utilize processor 125 acquisitions to transfer to mesh point (MP) 110 '.Similarly, the correlation behavior information storage of mesh point (MP) 110 ' in the internal memory 119 of mesh point (MP) 110 ' and utilize processor 115 acquisitions to transfer to mesh point (MP) 110 ".Yet state information can also store, and utilize processor 115 and processor 125 to capture respectively in mesh point (MP) 110 ' and mesh point (MP) 110 " additional areas.

In another kind of preferred embodiment of the present invention, with respect to requiring of request for network status information on one's own initiative to additional mps point (MP) 110, first mesh point (MP) 110 ' can be monitored this wireless telecommunication system 100 passively, receives network state information in order to other mesh point (MP) 110 via this wireless telecommunication system 100.Utilize this method, the processor 115 of mesh point (MP) 110 ' is via receiver 116 and antenna 118, in order to receive the network state information of other mesh point (MP) 110 passively.Processor 115 can utilize graphical user interface (GUI) 114, in order to the user's display network state information to mesh point (MP) 110 '.In addition, processor 115 can be via transmitter 117 and antenna 118, in order to the correlation behavior information of transmission mesh point (MP) 110 ' any other mesh point (MP) 110 to this wireless telecommunication system 100.

Fig. 4 represents to involve according to the mesh point of this wireless telecommunication system 100 of the present invention (MP) flow chart of degree determining method 400.In step 410, the requirement of first mesh point (MP), 110 ' request for network status information is to other mesh point (MP) 110 of this wireless telecommunication system 100.Though any mesh point (MP) 110 all can receive the requirement of network state information, for purposes of illustration, the present invention utilizes second mesh point (MP) 110 " describe, in order to respond first mesh point (MP) 110 '.In step 420, second mesh point (MP) 110 " receive the requirement of network state information and with network state information and second mesh point (MP) 110 " correlation behavior information to the first mesh point (MP) 110 '.In step 430, first mesh point (MP) 110 ' is via second mesh point (MP) 110 " the reception network state information.

Subsequently, in step 440, first mesh point (MP) 110 ' shows via second mesh point (MP) 110 " network state information that receives, and the correlation behavior information of first mesh point (MP) 110 ' self.Other state information (such as: supply of electric power life-span and suchlike state information) can also show to the user of first mesh point (MP) 110 '.Step display can utilize variety of way to implement, such as: user's graphical display or literal display.

Look user's needs of first mesh point (MP) 110 ', in step 450, the state information of first mesh point (MP), 110 ' transmission first mesh point (MP) 110 ' is to other mesh point (MP) 110 of this wireless telecommunication system 100.In addition, in step 460, this wireless telecommunication system 100 of first mesh point (MP) 110 ' decision involve degree or availability.Because resource factors (such as: amount of memory, handle resource, and battery consumption) will influence the utilization of mesh point (MP) 110, when resource is sufficient, mesh point (MP) 110 may be wanted the more degree and the availability of involving of this wireless telecommunication system, and, when resource scarcity, mesh point (MP) 110 may be wanted the less degree and the availability of involving of this wireless telecommunication system.

According to default framework, this wireless telecommunication system 100 involve degree or availability deciding step (step 460) can utilize the user of first mesh point (MP) 110 ', wireless telecommunication system self to be implemented through fortune person or first mesh point (MP) 110 '.In addition, if the user of first mesh point (MP) 110 ' promptly is the entity that framework involves degree or availability, then the user of first mesh point (MP) 110 ' also may need software or hardware structure instrument (such as: the application program that is executed in the processor 115 of first mesh point (MP) 110 '), carry out framework in order to the user who allows first mesh point (MP) 110 ' and change.The user of first mesh point (MP) 110 ' can influence framework via graphical user interface (GUI).

In addition, wireless communication system operator or manufacturer can also remote configuration first mesh point (MP) 110 ', so obtain first mesh point (MP) 110 ' involve degree and availability.This remote configuration step can comprise the following steps: to utilize single module (SIM) card, factory configuration or remote semi-static setting and carry out assembly via the communications protocol of signal transmit frame and the ground floor (L1) or the second layer (L2) and preset, in order to adjust the framework of first mesh point (MP) 110 ' via remote location, and, remote location comprises: the external position of this wireless telecommunication system 100, such as: the position of external network 150.Similarly, first mesh point (MP) 110 ' can framework, in order to whether to utilize battery electric power execution or first mesh point (MP) 110 ' whether to be connected to external power based on first mesh point (MP) 110 ' originate, and then change the degree that involves of first mesh point (MP) 110 '.In various examples, configuration parameters can be stored in database (such as: management information base (MIB)) seasoning reads and the writing information assembly.User or wireless communication system operator can the remote monitoring framework or the assembly in adjustment and acquisition data storehouse to change framework (for instance, utilizing simple mail to pass Mobile Communication's news agreement (SMTP), extensible indicating language (XML) or suchlike means).

The framework of first mesh point (MP) 110 ' can comprise whether mesh point (MP) 110 can be used for the setting of communication, and, if mesh point (MP) 110 can be used for communication, the level of availability of mesh point (MP) 110.Level of availability can comprise: unique contingency condition (only emergency) route, (part-time) connectivity of holding more than one job currently, non-package passes on or the complete service availability of other mesh point of this wireless telecommunication system 100 (MP) 110.In addition, the framework of first mesh point (MP) 110 ' can also comprise: the relevant identification information quantity of first mesh point (MP) 110 ', and other mesh point (MP) 110 of the current state of first mesh point (MP) 110 ' and first mesh point (MP) 110 ' and this wireless telecommunication system 100 be connected, reach first mesh point (MP) 110 ' in route or pass on needed checking or encryption type before the package.

Fig. 5 A represents according to a kind of wireless telecommunication system 500 of the present invention, and the height that the mesh point of this wireless telecommunication system 500 (MP) 110 ' has this wireless telecommunication system 500 involves degree.In this wireless telecommunication system 500, a plurality of mesh point (MP) 110 are carried out wireless telecommunications each other to form this wireless telecommunication system 500, and mesh point (MP) 110 ' is carried out wireless telecommunications with almost each other mesh point (MP) 110 of this wireless telecommunication system 500.In view of this, mesh point (MP) 110 ' may have through its route or the height flow load that passes on, and, need the mesh point (MP) 110 of very fast route to want to connect the mesh point (MP) 110 that has minuent and involve degree.In addition, the height based on mesh point (MP) 110 ' involves degree, the more additional mps point (MP) 110 of this wireless telecommunication system 500 of mesh point (MP) 110 accesses of connection mesh point (MP) 110 '.

Fig. 5 B represents according to a kind of wireless telecommunication system 550 of the present invention, and, the mesh point of this wireless telecommunication system 550 (MP) 100 " minuent with this wireless telecommunication system 550 involves degree.In this wireless telecommunication system 550, a plurality of mesh point (MP) 110 are carried out wireless telecommunications each other to form this wireless telecommunication system 550, and, mesh point (MP) 110 " only carry out wireless telecommunications with certain other mesh point (MP) 110 of this wireless telecommunication system 550.In view of this, mesh point (MP) 110 " may have through its route or pass on than the low discharge load, and, connect mesh point (MP) 110 " mesh point (MP) 110 can have via mesh point (MP) 110 " very fast information route.Yet, connect the additional mps point (MP) 110 of the mesh point (MP) 110 of mesh point (MP) 110 ', if additional mps point (MP) 110 does not connect mesh point (MP) 110 with this wireless telecommunication system 550 of inconvenient access ".

The present invention depending on the circumstances or the needs of the situation decides, and can be implemented on the wireless telecommunication system of any kind.For instance, the present invention can be implemented on the IEEE 802.XX type system of any kind or the wireless telecommunication system of any other type.The present invention can be implemented on application software or digital signal processor (DSP).

Though each feature of the present invention and assembly utilize the particular combinations of preferred embodiment to describe in detail as above, yet, each feature and the assembly of preferred embodiment of the present invention can also utilize separately, and do not need the further feature and the assembly of preferred embodiment of the present invention, perhaps, each feature of preferred embodiment of the present invention and assembly can also constitute other combination, and do not need the further feature and the assembly of preferred embodiment of the present invention.

Embodiment

One kind in a wireless telecommunication system in order to determine a plurality of netted degree methods that involve in this wireless telecommunication system.

2. as embodiment 1 described method, wherein one first mesh point requires signal to one second mesh point in order to transmit a network state.

3. as the described method of arbitrary the foregoing description, one second mesh point wherein, it responds this first mesh point with network state information.

4. as the described method of arbitrary the foregoing description, wherein one first mesh point receives this network state information from one second mesh point.

5. as the described method of arbitrary the foregoing description, wherein one first mesh point based on this network state information, determines that of this wireless telecommunication system involves degree.

6. as the described method of arbitrary the foregoing description, wherein one first mesh point shows this network state information.

7. as the described method of arbitrary the foregoing description, wherein this network state information comprise in this wireless telecommunication system other mesh point connection status in other mesh point availability, this wireless telecommunication system, connect the needed checking of this wireless telecommunication system and encryption, the average and maximum delay of an external network availability, this wireless telecommunication system, frequency range availability, and this wireless telecommunication system in other mesh point number.

8. as the described method of embodiment 1-6, wherein this network state information comprise in this wireless telecommunication system other mesh point connection status in other mesh point availability, this wireless telecommunication system, connect the needed checking of this wireless telecommunication system and encryption, the average and maximum delay of an external network availability, this wireless telecommunication system, frequency range availability, and this wireless telecommunication system in other number of mps purpose one of any.

9. as the described method of embodiment 1-6, this network state information comprises in this wireless telecommunication system other mesh point connection status in other mesh point availability, this wireless telecommunication system, connect the needed checking of this wireless telecommunication system and encryption, the average and maximum delay of an external network availability, this wireless telecommunication system, frequency range availability, and this wireless telecommunication system in other mesh point number.

10. as the described method of arbitrary the foregoing description, more comprise the correlation behavior information of one first mesh point.

11. as the described method of arbitrary the foregoing description, wherein the correlation behavior information of one first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, reach the relevant information of one of them at least of the present service availability degree of other mesh point in the wireless telecommunication system.

12. as the described method of embodiment 1-11, wherein the correlation behavior information of one first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and a wireless telecommunication system in the relevant information of one of them at least of present service availability degree of other mesh point.

13. as the described method of embodiment 1-11, wherein the correlation behavior information of one first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and a wireless telecommunication system in the relevant information of one of them at least of present service availability degree of other mesh point.

14. as the described method of arbitrary the foregoing description, comprise that more one first mesh point transmits correlation behavior information to one second mesh point of one first mesh point

15., comprise that whole mesh point of one first mesh point and a wireless telecommunication system are carried out communication as the described method of arbitrary the foregoing description.

16. as the described method of arbitrary the foregoing description, wherein, one first mesh point provides limited route.

17. as the described method of arbitrary the foregoing description, wherein, one first mesh point provides route under contingency condition.

18. as the described method of embodiment 1-15, wherein, one first mesh point does not provide the additional mps that routes to this wireless telecommunication system point.

19. as the described method of arbitrary the foregoing description, wherein, a user of one first mesh point provides the degree that involves of a mesh point in this wireless telecommunication system

20. as the described method of arbitrary the foregoing description, wherein, one first mesh point user utilizes the involve degree of a graphical user interface (GUI) with a mesh point in this wireless telecommunication system of framework.

21. as the described method of embodiment 1-18, wherein, this of one first mesh point involves the degree remote configuration in this wireless communication system.

22. as embodiment 21 described methods, wherein, this remote configuration step comprises signal frame and the communications protocol that transfers to one first mesh point.

23., more comprise the framework of this first mesh point of remote monitoring as the described method of arbitrary the foregoing description.

24. as the described method of arbitrary the foregoing description, wherein, the relevant information of the framework of one first mesh point is stored in a database.

25. as the described method of arbitrary the foregoing description, wherein, a state information is shown in one first mesh point via a graphical user interface (GUI).

26. a mesh point (MP) is applicable to a wireless telecommunication system.

27. more comprise a receiver as embodiment 26 described these mesh point.

28. more comprise a transmitter as the described mesh point of embodiment 26-27.

29. more comprise a processor as the described mesh point of embodiment 26-28.

30. as the described mesh point of embodiment 26-29, wherein, a processor architecture makes this transmitter transmit network state requirement other mesh point to this wireless telecommunication system to control a transmitter.

31. as the described mesh point of embodiment 26-30, wherein, this processor architecture is with the network state information of the mesh point of this network state requirement of reception response, and this processor architecture involves degree to determine one of this wireless telecommunication system.

32. as the described mesh point of embodiment 26-31, wherein, the network state information of this processor architecture of this mesh point to show that this network state of response requires.

33. as the described mesh point of embodiment 26-32, wherein, a network state information comprises the connection status of other mesh point in other mesh point availability, a wireless telecommunication system of a wireless telecommunication system, the average and maximum delay that connects the needed checking of a wireless telecommunication system and encryption, an external network availability, a wireless telecommunication system, frequency range availability, and at least one of other mesh point (MP) number of a wireless telecommunication system.

34. as the described mesh point of embodiment 26-32, wherein, a network state information comprises the connection status of other mesh point in the arbitrary availability of other mesh point, a wireless telecommunication system of a wireless telecommunication system, the average and maximum delay that connects the needed checking of a wireless telecommunication system and encryption, an external network availability, a wireless telecommunication system, frequency range availability, and at least one of other mesh point (MP) number of a wireless telecommunication system.

35. as the described mesh point of embodiment 26-32, wherein, a network state information comprises that other mesh point of a wireless telecommunication system is in conjunction with the connection status of other mesh point in availability, the wireless telecommunication system, the average and maximum delay that connects the needed checking of a wireless telecommunication system and encryption, an external network availability, a wireless telecommunication system, frequency range availability, and at least one of other mesh point (MP) number of a wireless telecommunication system.

36. as the described mesh point of embodiment 26-35, wherein, a processor more framework to show the correlation behavior information of one first mesh point.

37. as the described mesh point of embodiment 26-36, wherein, the correlation behavior information of one first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in the relevant information of one at least of present service availability degree of other mesh point.

38. as the described mesh point of embodiment 26-36, wherein, the correlation behavior information of one first mesh point (MP) comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

39. as the described mesh point of embodiment 26-36, wherein, the correlation behavior information of one first mesh point (MP) comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

40. a mesh point is applicable to that a wireless telecommunication system comprises an integrated circuit (IC).

41. more comprise a receiver as embodiment 40 described integrated circuits.

42. more comprise a transmitter as the described integrated circuit of embodiment 40-41.

43. more comprise a processor as the described integrated circuit of embodiment 40-42.

44. as the described integrated circuit of embodiment 40-43, wherein, a processor architecture makes this transmitter transmit network state requirement other mesh point to this wireless telecommunication system to control this transmitter.

45. as the described integrated circuit of embodiment 40-44, wherein, a processor of a mesh point carries out framework, in order to respond the network state information that this network state requires.

46. as the described integrated circuit of embodiment 40-45, wherein, a processor carries out framework, in order to the network state information that shows that this network state of response requires.

47. as the described integrated circuit of embodiment 40-46, wherein, a network state information comprise the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, and the frequency range availability at least one of them.

48. as the described integrated circuit of embodiment 40-46, wherein, a network state information comprise the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, and the frequency range availability at least one of them.

49. as the described integrated circuit of embodiment 40-46, wherein, a network state information comprise the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, and the frequency range availability at least one of them.

50. as the described integrated circuit of embodiment 40-49, wherein, a processor of this mesh point is in order to show this state information.

51. as the described integrated circuit of embodiment 40-50, wherein, the correlation behavior information of this mesh point (MP) comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and a wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

52. as the described integrated circuit of embodiment 40-50, wherein, the correlation behavior information of this mesh point (MP) comprise with arbitrary connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and a wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

53. as the described integrated circuit of embodiment 40-50, wherein, the correlation behavior information of this mesh point (MP) comprise with the arbitrary connectivity that combines of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and a wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

Claims (26)

1. One kind in a wireless telecommunication system in order to determine a plurality of netted degree methods that involve in this wireless telecommunication system, wherein this wireless telecommunication system comprises those a plurality of mesh point, this method comprises the following steps:

   One first mesh point requires signal to one second mesh point in order to transmit a network state;

   This second mesh point, it responds this first mesh point with network state information;

   This first mesh point, it receives this network state information from this second mesh point; And

   This first mesh point based on this network state information, determines that of this wireless telecommunication system involves degree; And

   Wherein, this network state information comprise in this wireless telecommunication system other mesh point connection status in other mesh point availability, this wireless telecommunication system, connect the needed checking of this wireless telecommunication system and encryption, the average and maximum delay of an external network availability, this wireless telecommunication system, frequency range availability, and this wireless telecommunication system in other number of mps purpose at least one of them.
2. 2. the method for claim 1 is characterized in that, more comprises the following steps:

   This first mesh point shows this network state information.
3. 3. method as claimed in claim 2 is characterized in that, comprises that more this first mesh point shows the correlation behavior information of this first mesh point;

   Wherein, the correlation behavior information of this first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in the relevant information of one of them at least of present service availability degree of other mesh point.
4. 4. method as claimed in claim 3 is characterized in that, comprises that more this first mesh point transmits the correlation behavior information of this first mesh point to this second mesh point.
5. 5. the method for claim 1 is characterized in that, whole mesh point of this first mesh point and this wireless telecommunication system are carried out communication.
6. 6. the method for claim 1 is characterized in that, this first mesh point does not provide the additional mps that routes to this wireless telecommunication system point.
7. 7. the method for claim 1 is characterized in that, this first mesh point provides limited route.
8. 8. method as claimed in claim 7 is characterized in that, this first mesh point provides route under contingency condition.
9. 9. the method for claim 1 is characterized in that, a user of this first mesh point provides this to involve degree.
10. 10. method as claimed in claim 9 is characterized in that, this user utilizes a graphical user interface, and this involves degree with framework.
11. 11. the method for claim 1 is characterized in that, it is remote configuration that this of this first mesh point involves degree.
12. 12. method as claimed in claim 12 is characterized in that, this remote configuration step comprises signal frame and the communications protocol that transfers to this first mesh point.
13. 13. method as claimed in claim 11 is characterized in that, more comprises the framework of this first mesh point of remote monitoring.
14. 14. method as claimed in claim 13 is characterized in that, the relevant information of the framework of this first mesh point is stored in a database.
15. 15. the method for claim 1 is characterized in that, this state information via graphical user's interface display in this first mesh point.
16. 16. one kind in a wireless telecommunication system in order to determine a plurality of netted degree methods that involve in this wireless telecommunication system, wherein this wireless telecommunication system comprises those a plurality of mesh point, this method comprises the following steps:

    Reception is from the network state information of one second mesh point; And

    Based on the network state information that is received, determine that of one first mesh point in this wireless telecommunication system involves degree; And

    Wherein, this network state information comprise the connection status of other mesh point in other mesh point availability, this wireless telecommunication system of this wireless telecommunication system, the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, frequency range availability, and other number of mps purpose of this wireless telecommunication system at least one.
17. 17. method as claimed in claim 16 is characterized in that, comprises that more this first mesh point shows this network state information.
18. 18. method as claimed in claim 17 is characterized in that, comprises that more this first mesh point shows the correlation behavior information of this first mesh point;

    Wherein, the correlation behavior information of this first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in the relevant information of one of them at least of present service availability degree of other mesh point.
19. 19. a mesh point is applicable to a wireless telecommunication system, this mesh point comprises:

    One receiver;

    One transmitter; And

    One processor, itself and this receiver and this transmitter carry out communication, and wherein, this processor architecture to be to control this transmitter, makes this transmitter transmit a network state and requires other mesh point to this wireless telecommunication system;

    Wherein, this processor architecture is with the network state information of the mesh point of this network state requirement of reception response, and this processor architecture involves degree to determine one of this wireless telecommunication system; And

    Wherein, respond this network state information that this network state requires comprise in this wireless telecommunication system the connection status of other mesh point in other mesh point availability, this wireless telecommunication system, and this wireless telecommunication system in other number of mps purpose at least one of them.
20. 20. mesh point as claimed in claim 19, it is characterized in that, the network state information that responds the mesh point that this network state requires more comprise the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, and the frequency range availability at least one of them.
21. 21. mesh point as claimed in claim 20 is characterized in that, the network state information of this processor architecture of this mesh point to show that this network state of response requires.
22. 22. mesh point as claimed in claim 19, it is characterized in that, this processor more framework to show the correlation behavior information of this first mesh point, wherein, the correlation behavior information of this first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in the relevant information of one at least of present service availability degree of other mesh point.
23. 23. an integrated circuit is applicable to the wireless telecommunication system with a plurality of mesh point, this mesh point comprises this wireless telecommunication system, and this integrated circuit comprises:

    One receiver;

    One transmitter; And

    One processor, itself and this receiver and this transmitter carry out communication, and wherein, this processor architecture to be to control this transmitter, makes this transmitter transmit a network state and requires other mesh point to this wireless telecommunication system;

    Wherein, this processor architecture is with the network state information of the mesh point of this network state requirement of reception response, and this processor architecture involves degree to determine one of this wireless telecommunication system; And

    Wherein, respond this network state information that this network state requires comprise in this wireless telecommunication system the connection status of other mesh point in other mesh point availability, this wireless telecommunication system, and this wireless telecommunication system in other number of mps purpose at least one of them.
24. 24. integrated circuit as claimed in claim 23, it is characterized in that, the network state information that responds the mesh point that this network state requires more comprise the average and maximum delay that connects the needed checking of this wireless telecommunication system and encryption, an external network availability, this wireless telecommunication system, and the frequency range availability at least one of them.
25. 25. integrated circuit as claimed in claim 24 is characterized in that, this processor of this mesh point carries out framework, in order to the network state information that shows that this network state of response requires.
26. 26. integrated circuit as claimed in claim 23, it is characterized in that, this processor more framework to show the correlation behavior information of this first mesh point, wherein, the correlation behavior information of this first mesh point comprise with the connectivity of additional mps point, needed checking and encryption, quality of connection, at present wireless activity degree, electric power degree, and this wireless telecommunication system in one of them relevant information in the present service availability degree of other mesh point.

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